Journal
ACTA METALLURGICA SINICA-ENGLISH LETTERS
Volume 27, Issue 6, Pages 1134-1143Publisher
CHINESE ACAD SCIENCES, INST METAL RESEARCH
DOI: 10.1007/s40195-014-0151-2
Keywords
Mg-Nd-Gd ternary magnesium alloy; Directional solidification microstructures; Dendrite growth; Microsegregation; Mechanical property
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Funding
- National Natural Science Foundation of China [51071129, 51227001]
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The microstructure, microsegregation, and mechanical properties of directional solidified Mg-3.0Nd-1.5Gd ternary alloys were experimentally studied. Experimental results showed that the solidification microstructure was composed of dendrite primary proportional to(Mg) phase and interdenclritic proportional to(Mg) + Mg-12(Nd, Gd) eutectic and Mg5Gd phase. The primary dendrite arm spacing lambda(1). and secondary dendrite arm spacing lambda(2) were found to be depended on the cooling rate R in the form lambda(1)= 8.0415 x 10(-6) R-0.279 and lambda(2)= 6.8883 x 10(-6) R-0.205, respectively, under the constant temperature gradient of 40 K/mm and in the region of cooling rates from 0.4 to 4 K/s. The concentration profiles of Nd and Gd elements calculated by Scheil model were found to be deviated from the ones measured by EPMA to varying degrees, due to ignorance of the bask diffusion of the solutes Nd and Gd within proportional to(Mg) matrix. And microsegregation of Gd depended more on the growth rate, compared with Nd microsegregation. The directionally solidified experimental alloy exhibited higher strength than the non-directionally solidified alloy, and the tensile strength of the directionally solidified experimental alloy was improved, while the corresponding elongation decreased with the increase of growth rate.
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